Batch pricing

Azure Batch provides job scheduling and cluster management, allowing applications or algorithms to run in parallel at scale.

There’s no charge for Batch itself, only the underlying compute and other resources consumed to run your batch jobs, including applicable software license costs. For compute, Cloud Services, Linux Virtual Machines, or Windows Virtual Machines can be utilized by Batch. The standard rates for compute apply and can be viewed below and software licensing costs for batch graphics and rendering are available below. In addition, Batch allows low-priority virtual machines (VMs) to be used. Reserved Virtual Machine Instances are available when using the Azure Batch Service in User subscription pool application mode.

Low-priority VMs in Batch

Low-priority VMs are available for a much lower price than normal VMs and can significantly reduce the costs of running certain workloads, or allow much more work to be performed at a greater scale for the same cost. However, low-priority VMs do have different characteristics and are only suitable for certain types of applications and workloads. Low-priority VMs are allocated from surplus capacity and therefore availability varies—at times VMs may not be available to allocate, and allocated VMs may occasionally be preempted by higher-priority allocations. The availability SLA for normal VMs therefore does not apply to low-priority VMs.

If applications can tolerate interruption, then use of low-priority VMs can significantly lower compute costs. Suitable workloads include batch processing and HPC jobs, where the work is split into many asynchronous tasks. If VMs are pre-empted, then tasks can be interrupted and rerun—job completion time can also increase if capacity drops. Low-priority VMs are initially only available through Azure Batch, which provides job scheduling and resource management for batch processing workloads. Azure Batch pools can contain both normal and low-priority VMs. If low-priority VMs are pre-empted, then any interrupted tasks will be requeued, and the pool will automatically attempt to replace the lost capacity.

Virtual machines are billed per-second rounded down to the last minute.

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US government entities are eligible to purchase Azure Government services from a licensing solution provider with no upfront financial commitment, or directly through a pay-as-you-go online subscription.

Important—The price in R$ is merely a reference; this is an international transaction and the final price is subject to exchange rates and the inclusion of IOF taxes. An eNF will not be issued.

Azure Germany is available to customers and partners who have already purchased this, doing business in the European Union (EU), the European Free Trade Association (EFTA), and in the United Kingdom (UK). It provides data residency in Germany with additional levels of control and data protection. You can also sign up for a free Azure trial.

Batch is not available in the South Africa West region. Please select another region.

General purpose

Balanced CPU-to-memory ratio. Ideal for testing and development, small to medium databases, and low to medium traffic web servers.

Av2 Standard

Av2 Standard is the latest generation of A-series virtual machines with similar CPU performance and faster disk. These virtual machines are suitable for development workloads, build servers, code repositories, low-traffic websites and web applications, micro services, early product experiments, and small databases. Like the prior A Standard generation, Av2 virtual machines will include load balancing and auto-scaling at no additional charge.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

A1 v2

1

2 GiB

10 GiB

$-

$-

– –Blank

– –Blank

A2 v2

2

4 GiB

20 GiB

$-

$-

– –Blank

– –Blank

A2m v2

2

16 GiB

20 GiB

$-

$-

– –Blank

– –Blank

A4 v2

4

8 GiB

40 GiB

$-

$-

– –Blank

– –Blank

A4m v2

4

32 GiB

40 GiB

$-

$-

– –Blank

– –Blank

A8 v2

8

16 GiB

80 GiB

$-

$-

– –Blank

– –Blank

A8m v2

8

64 GiB

80 GiB

$-

$-

– –Blank

– –Blank

Reserved Virtual Machine Instances are currently not available for the Av2-series.

D2-64 v3 latest generation

D2-64 v3 instances are the latest, hyper-threaded general purpose generation running on both the 2.4 GHz Intel Xeon® E5-2673 v3 (Haswell) and the 2.3 GHz Intel Xeon® E5-2673 v4 (Broadwell) processor. With the Intel Turbo Boost Technology 2.0, the Dv3 can achieve up to 3.5 gigahertz (GHz). The Dv3-series sizes offer a combination of vCPU, memory and local disk best suited for most production workloads.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

D2 v3

2

8 GiB

50 GiB

$-

$-

$-

$-

D4 v3

4

16 GiB

100 GiB

$-

$-

$-

$-

D8 v3

8

32 GiB

200 GiB

$-

$-

$-

$-

D16 v3

16

64 GiB

400 GiB

$-

$-

$-

$-

D32 v3

32

128 GiB

800 GiB

$-

$-

$-

$-

D64 v3

64

256 GiB

1,600 GiB

$-

$-

$-

$-

D2s-64s v3 latest generation

Dsv3-series support premium storage and are the latest, hyper-threaded general purpose generation running on both the 2.4 GHz Intel Xeon® E5-2673 v3 (Haswell) and the 2.3 GHz Intel Xeon® E5-2673 v4 (Broadwell) processor. With the Intel Turbo Boost Technology 2.0, the Dsv3 can achieve up to 3.5 gigahertz (GHz). The Dsv3-series sizes offer a combination of vCPU, memory and temporary storage best suited for most production workloads.

The VM pricing and billing meters for Dsv3 sizes are the same as Dv3-series. Persistent storage disks are billed separately from virtual machines. See pricing for disks.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

D2s v3

2

8 GiB

16 GiB

$-

$-

$-

$-

D4s v3

4

16 GiB

32 GiB

$-

$-

$-

$-

D8s v3

8

32 GiB

64 GiB

$-

$-

$-

$-

D16s v3

16

64 GiB

128 GiB

$-

$-

$-

$-

D32s v3

32

128 GiB

256 GiB

$-

$-

$-

$-

D64s v3

64

256 GiB

512 GiB

$-

$-

$-

$-

D1-5 v2

D1-5 v2 instances are based on either the 2.4 GHz Intel Xeon® E5-2673 v3 (Haswell) processor or the 2.3 GHz Intel Xeon® E5-2673 v4 (Broadwell) processor and can achieve 3.1 GHz with Intel Turbo Boost Technology 2.0. D1-5 v2 instances offer a powerful combination of CPU, memory, and local disk for most production applications.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

D1 v2

1

3.5 GiB

50 GiB

$-

$-

$-

$-

D2 v2

2

7 GiB

100 GiB

$-

$-

$-

$-

D3 v2

4

14 GiB

200 GiB

$-

$-

$-

$-

D4 v2

8

28 GiB

400 GiB

$-

$-

$-

$-

D5 v2

16

56 GiB

800 GiB

$-

$-

$-

$-

DS1-S5 v2

Persistent storage disks are billed separately from virtual machines. To use premium storage disks, use the variant Dsv2 virtual machines. The pricing and billing meters for Dsv2 sizes are the same as Dv2-series. See pricing for disks.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

DS1 v2

1

3.5 GiB

7 GiB

$-

$-

$-

$-

DS2 v2

2

7 GiB

14 GiB

$-

$-

$-

$-

DS3 v2

4

14 GiB

28 GiB

$-

$-

$-

$-

DS4 v2

8

28 GiB

56 GiB

$-

$-

$-

$-

DS5 v2

16

56 GiB

112 GiB

$-

$-

$-

$-

DC-series
preview

DC series is a new family of virtual machines in Azure that can help protect the confidentiality and integrity of your data and code while it’s processed in the public cloud. These machines are backed by the latest generation of 3.7GHz Intel XEON E-2176G Processor with SGX technology. With the Intel Turbo Boost Technology these machines can go up to 4.7GHz. DC series instances enable customers to build secure enclave-based applications to protect their code and data while it’s in use.

Add to estimate

Instance

Core

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

DC2s

2

8 GiB

100 GiB

$-

$-

– –Blank

– –Blank

DC4s

4

16 GiB

200 GiB

$-

$-

– –Blank

– –Blank

Reserved Virtual Machine Instances are currently not available for the Dc-series.

*Preview pricing subject to change

D1-4 – v1

D1-4 instances offer a powerful combination of CPU, memory and local disk for most production applications.
For persistent storage, use the variant “Ds” virtual machines and purchase Premium Storage separately. The pricing and billing meters for Ds sizes are the same as D-series.

Compute optimized

Fsv2-series

The Fsv2-series virtual machines support 2-GiB RAM and 8 GB of local temporary storage (SSD) per vCPU, and are optimized for compute intensive workloads. The F-series is hyper-threaded and based on the Intel Xeon® Platinum 8168 (SkyLake) processor, which can achieve single core Turbo clock speeds of 3.7 GHz and sustained all core Turbo as high as 3.4GHz with the Intel Turbo Boost Technology 2.0. These virtual machines are suitable for scenarios like batch processing, web servers, analytics, and gaming.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

F2s v2

2

4 GiB

16 GiB

$-

$-

$-

$-

F4s v2

4

8 GiB

32 GiB

$-

$-

$-

$-

F8s v2

8

16 GiB

64 GiB

$-

$-

$-

$-

F16s v2

16

32 GiB

128 GiB

$-

$-

$-

$-

F32s v2

32

64 GiB

256 GiB

$-

$-

$-

$-

F64s v2

64

128 GiB

512 GiB

$-

$-

$-

$-

F72s v2

72

144 GiB

576 GiB

$-

$-

$-

$-

F-series

The F-series virtual machines support 2-GiB RAM and 16 GB of local solid state drive (SSD) per CPU core, and are optimized for compute intensive workloads. The F-series is based on the 2.4 GHz Intel Xeon® E5-2673 v3 (Haswell) processor, which can achieve clock speeds as high as 3.2 GHz with the Intel Turbo Boost Technology 2.0. These virtual machines are suitable for scenarios like batch processing, web servers, analytics, and gaming.

For persistent storage, use the variant Fs virtual machines and purchase Premium Storage separately. The pricing and billing meters for Fs sizes are the same as F-series.

Add to estimate

Instance

Core

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

F1

1

2 GiB

16 GiB

$-

$-

$-

$-

F2

2

4 GiB

32 GiB

$-

$-

$-

$-

F4

4

8 GiB

64 GiB

$-

$-

$-

$-

F8

8

16 GiB

128 GiB

$-

$-

$-

$-

F16

16

32 GiB

256 GiB

$-

$-

$-

$-

Fs-Series

Add to estimate

Instance

Core

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

F1s

1

2 GiB

4 GiB

$-

$-

$-

$-

F2s

2

4 GiB

8 GiB

$-

$-

$-

$-

F4s

4

8 GiB

16 GiB

$-

$-

$-

$-

F8s

8

16 GiB

32 GiB

$-

$-

$-

$-

F16s

16

32 GiB

64 GiB

$-

$-

$-

$-

Memory optimized

High memory-to-core ratio. Great for relational database servers, medium to large caches, and in-memory analytics.

Persistent storage disks are billed separately from virtual machines. To use premium storage disks, use the variant Esv3 virtual machines. The pricing and billing meters for Esv3 sizes are the same as Ev3-series. See pricing for disks.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

E2 v3

2

16 GiB

50 GiB

$-

$-

$-

$-

E4 v3

4

32 GiB

100 GiB

$-

$-

$-

$-

E8 v3

8

64 GiB

200 GiB

$-

$-

$-

$-

E16 v3

16

128 GiB

400 GiB

$-

$-

$-

$-

E20 v3

20

160 GiB

500 GiB

$-

$-

$-

$-

E32 v3

32

256 GiB

800 GiB

$-

$-

$-

$-

E64i v3
1

64

432 GiB

1,600 GiB

$-

$-

$-

N/A

E64 v3

64

432 GiB

1,600 GiB

$-

$-

$-

$-

1 Azure Compute offers virtual machine sizes that are Isolated to a specific hardware type and dedicated to a single customer. These virtual machine sizes are best suited for workloads that require a high degree of isolation from other customers for workloads involving elements like compliance and regulatory requirements.

Persistent storage disks are billed separately from virtual machines. To use premium storage disks, use the variant Esv3 virtual machines. The pricing and billing meters for Esv3 sizes are the same as Ev3-series. See pricing for disks.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

E2s v3

2

16 GiB

32 GiB

$-

$-

$-

$-

E4s v3

4

32 GiB

64 GiB

$-

$-

$-

$-

E8s v3

8

64 GiB

128 GiB

$-

$-

$-

$-

E16s v3

16

128 GiB

256 GiB

$-

$-

$-

$-

E20s v3

20

160 GiB

320 GiB

$-

$-

$-

$-

E32s v3

32

256 GiB

512 GiB

$-

$-

$-

$-

E64is v3
1

64

432 GiB

864 GiB

$-

$-

$-

N/A

E64s v3

64

432 GiB

864 GiB

$-

$-

$-

$-

1 Azure Compute offers virtual machine sizes that are Isolated to a specific hardware type and dedicated to a single customer. These virtual machine sizes are best suited for workloads that require a high degree of isolation from other customers for workloads involving elements like compliance and regulatory requirements.

DS11-S15 v2

For persistent storage, use the variant Dsv2 virtual machines and purchase Premium Storage separately. The pricing and billing meters for Dsv2 sizes are the same as Dv2-series.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

DS11 v2

2

14 GiB

28 GiB

$-

$-

$-

$-

DS12 v2

4

28 GiB

56 GiB

$-

$-

$-

$-

DS13 v2

8

56 GiB

112 GiB

$-

$-

$-

$-

DS14 v2

16

112 GiB

224 GiB

$-

$-

$-

$-

DS15 v2

20

140 GiB

280 GiB

$-

$-

$-

$-

D11-14 – v1

D11-14 instances are ideal for memory-intensive enterprise applications. For persistent storage, use the variant “Ds” virtual machines and purchase Premium Storage separately. The pricing and billing meters for Ds sizes are the same as D-series.

All the M-series virtual machine sizes will have the ability to use both standard and premium persistent disks. The pricing and billing meters for Ms sizes are the same as M-series.

M-series VMs are certified by SAP for SAP HANA OLTP and OLAP workloads. For more information on running SAP HANA on Azure, please refer to the SAP solutions.

Add to estimate

Instance

vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

M8ms

8

219 GiB

256 GiB

$-

$-

$-

$-

M16ms

16

438 GiB

512 GiB

$-

$-

$-

$-

M32ts

32

192 GiB

1,024 GiB

$-

$-

$-

$-

M32ls

32

256 GiB

1,024 GiB

$-

$-

$-

$-

M32ms

32

875 GiB

1,024 GiB

$-

$-

$-

$-

M64ls

64

512 GiB

2,048 GiB

$-

$-

$-

$-

M64s

64

1,024 GiB

2,048 GiB

$-

$-

$-

$-

M64
1

64

1,024 GiB

7,168 GiB

$-

$-

$-

$-

M64ms

64

1,792 GiB

2,048 GiB

$-

$-

$-

$-

M64m
1

64

1,792 GiB

7,168 GiB

$-

$-

$-

$-

M128s

128

2,048 GiB

4,096 GiB

$-

$-

$-

$-

M128
1

128

2,048 GiB

14,336 GiB

$-

$-

$-

$-

M128ms

128

3,892 GiB

4,096 GiB

$-

$-

$-

$-

M128m
1

128

3,892 GiB

14,336 GiB

$-

$-

$-

$-

1 Azure Compute virtual machines have the same vCPU, RAM and total storage with varying local and XIO cache disk storage sizes, this is to offer customers the flexibility to choose different disk allocation to meet their workload requirements.

All the Mv2-series virtual machine sizes will have the ability to use both standard and premium persistent disks. The pricing and billing meters for Ms sizes are the same as M-series.

Mv2-series VMs are certified for SAP HANA OLTP and OLAP workloads. For more information on running SAP HANA on Azure, please refer to the SAP solutions.

Add to estimate

Instance

Core

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

M208s v2

208

2,850 GiB

7,040 GiB

$-

$-

$-

$-

M208ms v2

208

5,700 GiB

7,040 GiB

$-

$-

$-

$-

Extreme Memory Optimized

These new VM sizes are optimized for database workloads like SQL Server or Oracle that often require high memory, storage, and I/O bandwidth, but not a high CPU core count. They constrain the VM vCPU count to reduce the cost of software licensing, all while maintaining the same memory, storage, and I/O bandwidth. The licensing charged for SQL Server or Oracle will be constrained to the active vCPU count while the compute cost, which includes OS licensing, remains the same one as the original size based on “underlying vCPU”. These new VM sizes that are only available in Azure, allowing workloads to push higher CPU utilization at a fraction of the (per-core) licensing cost.

Add to estimate

Instance

Active vCPU / Underlying vCPU

RAM

Temporary storage

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

M64-16ms

16 / 64

1,750 GiB

2,048 GiB

$-

$-

$-

$-

M64-32ms

32 / 64

1,750 GiB

2,048 GiB

$-

$-

$-

$-

M128-32ms

32 / 128

3,800 GiB

4,096 GiB

$-

$-

$-

$-

M128-64ms

64 / 128

3,800 GiB

4,096 GiB

$-

$-

$-

$-

Storage optimized

High disk throughput and IO. Ideal for Big Data, SQL, and NoSQL databases.

Lsv2-series

The Lsv2-series features high throughput, low latency, directly mapped local NVMe storage running on the AMD EPYCTM 7551 processor with an all core boost of 2.55GHz and a max boost of 3.0GHz. The Lsv2-series VMs come in sizes from 8 to 80 vCPU in a simultaneous multi-threading configuration. There is 8 GiB of memory per vCPU, and one 1.92TB NVMe SSD M.2 device per 8 vCPUs, with up to 19.2TB (10x1.92TB) available on the L80s v2.

Add to estimate

Instance

vCPU

RAM

Temporary storage

NVMe Disk

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

L8s v2

8

64 GiB

80 GiB

1 x 1.9 TB

$-

$-

$-

$-

L16s v2

16

128 GiB

160 GiB

2 x 1.9 TB

$-

$-

$-

$-

L32s v2

32

256 GiB

320 GiB

4 x 1.9 TB

$-

$-

$-

$-

L64s v2

64

512 GiB

640 GiB

8 x 1.9 TB

$-

$-

$-

$-

L80s v2

80

640 GiB

800 GiB

10 x 1.9 TB

$-

$-

$-

$-

GPU

Specialized virtual machines targeted for heavy graphic rendering and video editing available with single or multiple GPUs.

NCv2 series

NCv2 series virtual machines is a new addition to the GPU product family offering the next generation of our popular NC-series machines, powered by NVIDIA Tesla P100 GPUs. Customers can take advantage of these updated GPUs for traditional HPC workloads that will benefit from a performance boost, powering scenarios like reservoir modeling, DNA sequencing, protein analysis, Monte Carlo simulations, and others. These new GPUs can provide more than 2 times the computational performance of the current NC-series. And like our NC series, we offer a configuration with InfiniBand networking for workloads that require fast interconnect, like Oil and Gas, Automotive, and Genomics to also accelerate scaleout capability as well as improved single instance performance. In addition, N-series offers an NC24r configuration that provides a low latency, high-throughput network interface optimized for tightly coupled parallel computing workloads.

Add to estimate

Instance

Core

RAM

Temporary storage

GPU

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

NC6s v2

6

112 GiB

736 GiB

1X P100

$-

$-

$-

$-

NC12s v2

12

224 GiB

1,474 GiB

2X P100

$-

$-

$-

$-

NC24rs v2

24

448 GiB

2,948 GiB

4X P100

$-

$-

$-

$-

NC24s v2

24

448 GiB

2,948 GiB

4X P100

$-

$-

$-

$-

NCv3 series

NCv3 series virtual machines is a new addition to the GPU product family offering the next generation of our popular NC-series machines, powered by NVIDIA Tesla V100 GPUs. Customers can take advantage of these updated GPUs for traditional HPC workloads that will benefit from a performance boost, powering scenarios like reservoir modeling, DNA sequencing, protein analysis, Monte Carlo simulations, and others. These new GPUs can provide 1.5 times the computational performance of the current NCv2-series. And like our other NC series, we offer a configuration, NC24r v3, with InfiniBand networking for workloads that require fast interconnect, like Oil and Gas, Automotive, and Genomics to also accelerate scale out capability as well as improved single instance performance.

NVv2-series
preview

NVv2 series virtual machines are powered by NVIDIA Tesla M60 GPUs and NVIDIA GRID technology with Intel Broadwell CPUs. These virtual machines are targeted for GPU accelerated graphics applications and virtual desktops where customers want to visualize their data, simulate results to view, work on CAD or render and stream content. Additionally, these virtual machines can run single precision workloads such as encoding and rendering. NV_v2 virtual machines support Premium Storage and come with twice the system memory (RAM) when compared with its predecessor NV Series.

Reserved Virtual Machine Instances are currently not available for the NVv2-series.

NVv3-series
preview

NVv3 series virtual machines are powered by NVIDIA Tesla M60 GPUs and NVIDIA GRID technology with Intel Broadwell CPUs. These virtual machines are targeted for GPU accelerated graphics applications and virtual desktops where customers want to visualize their data, simulate results to view, work on CAD or render and stream content. Additionally, these virtual machines can run single precision workloads such as encoding and rendering. NVv3 virtual machines support Premium Storage and come with twice the system memory (RAM) when compared with its predecessor NV Series. Compared to the NVv2 series the NVv3 configurations are hyperthreaded.

Reserved Virtual Machine Instances are currently not available for the NVv3-series.

ND-series

ND-series virtual machines is a new addition to the GPU family specifically designed for the needs of the AI and deep learning workloads offering excellent performance for training and inference. It’s powered by NVIDIA Tesla P40 GPUs based on the new Pascal Architecture. These instances provide excellent performance for FP32 (single precision floating point operations), for AI workloads utilizing CNTK, TensorFlow, Caffe, and other frameworks. The ND-series also offers a much larger GPU memory size (24 GB), enabling it to fit much larger neural net models. Like our NC-series, the ND-series offers a configuration with a secondary low-latency, high-throughput network through RDMA, and InfiniBand connectivity so you can run large-scale training jobs spanning many GPUs. In addition, N-series offers an ND24r configuration that provides a low latency, high-throughput network interface optimized for tightly coupled parallel computing workloads.

Add to estimate

Instance

Core

RAM

Temporary storage

GPU

Pay as you go

(Low priority)

Pay as you go

(normal priority)

One year reserved(% Savings)

Three year reserved(% Savings)

ND6

6

112 GiB

736 GiB

1X P40

$-

$-

$-

$-

ND12

12

224 GiB

1,474 GiB

2X P40

$-

$-

$-

$-

ND24r

24

448 GiB

2,948 GiB

4X P40

$-

$-

$-

$-

ND24

24

448 GiB

2,948 GiB

4X P40

$-

$-

$-

$-

NDv2 Series
preview

NDv2-series virtual machine is a new addition to the GPU family specifically designed for the needs of the HPC, AI and machine learning workloads. It’s powered by 8 NVIDIA Tesla V100 NVLINK interconnected GPUs and 40 Intel Skylake cores and 672 GiB of system memory. NDv2 instance provides excellent FP32 and FP64 performance for HPC and AI workloads utilizing Cuda, TensorFlow, Pytorch, Caffe, and other frameworks.

High performance compute

H-series

The H-series is a new family specifically designed to handle high performance computing workloads such as financial risk modeling, seismic and reservoir simulation, molecular modeling, and genomic research. They are based on the Intel Xeon E5-2667 v3 Haswell 3.2 GHz (3.6 GHz with turbo) with DDR 4 memory. Turbo is always on for H-series instances. Two of the H-series configurations (H16r, H16mr) also carry a second low latency, high-throughput network interface (RDMA) optimized and tuned for tightly coupled parallel computing workloads such as MPI applications.